Double hinged cosmetic assembly

ABSTRACT

Disclosed herein is a cosmetic assembly. The cosmetic assembly includes: a hinge unit extending from a first lateral surface to a second lateral surface; and a leg unit being hinge-coupled to the hinge unit and elongated from an end to another end, the end of the leg unit being connected to the hinge unit, the other end of the leg unit having a cosmetic product. The leg unit includes: a first leg unit being hinge-coupled to the first lateral surface of the hinge unit; and a second leg unit being hinge-coupled to the second lateral surface of the hinge unit. An angle formed between the first leg unit and the second leg unit depends on rotation of the first leg unit and the second leg unit with respect to the hinge unit.

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to a double hinged cosmetic assembly, andmore particularly, to a double hinged cosmetic assembly capable ofadjusting an angle between two cosmetic products connected with eachother by a hinge.

Background Art

When a user does make-up using a cosmetic container containing cosmeticingredients or a makeup set, such as brushes, there may be inconveniencein use and keeping. For instance, a user who mainly do eye makeup andlip makeup has to individually carry an eyeliner and a lipstick.However, if the user does not carry one of the eyeliner and thelipstick, the user may feel inconvenient.

Therefore, a cosmetic product to which various cosmetic containers ormakeup tools are connected may be considered. Because the cosmeticproduct having various cosmetic containers or makeup tools may increaseuser convenience, people demand development of such a cosmetic product.

PATENT LITERATURE Patent Documents

Patent Document 1: U.S. Pat. No. 8,397,931 B2

SUMMARY OF THE INVENTION

Accordingly, the present invention has been made to solve theabove-mentioned problems occurring in the prior arts, and it is anobject of the present invention to provide a double hinged cosmeticassembly to which various cosmetic products are connected.

It is another object of the present invention to provide a double hingedcosmetic assembly, which can adjust an angle between the variouscosmetic products.

It is a further object of the present invention to provide a doublehinged cosmetic assembly which has a case accommodating and protectingthe various cosmetic products.

The technical problem to be solved by the present invention is notlimited to the technical problem as mentioned above, and anothertechnical problem, which is not mentioned, could be clearly understoodby those having ordinary skill in the art to which the present inventionpertains based on the description below.

To accomplish the above object, according to the present invention,there is provided a cosmetic assembly including: a hinge unit extendingfrom a first lateral surface to a second lateral surface; and a leg unitbeing hinge-coupled to the hinge unit and elongated from an end toanother end, the end of the leg unit being connected to the hinge unit,the other end of the leg unit having a cosmetic product, wherein the legunit includes: a first leg unit being hinge-coupled to the first lateralsurface of the hinge unit; and a second leg unit being hinge-coupled tothe second lateral surface of the hinge unit, and an angle formedbetween the first leg unit and the second leg unit depends on rotationof the first leg unit and the second leg unit with respect to the hingeunit.

The double hinged cosmetic assembly according to an embodiment of thepresent invention may connect various cosmetic products with each other.

The double hinged cosmetic assembly according to an embodiment of thepresent invention may adjust an angle between the various cosmeticproducts.

The double hinged cosmetic assembly according to an embodiment of thepresent invention may have a case accommodating and protecting thevarious cosmetic products.

The effects of the present invention are not limited to theabove-mentioned effects and further effects derivable from theconstitution of the invention described in the detailed description ofthe invention or in claims may be included in the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features and advantages of the presentinvention will be apparent from the following detailed description ofthe preferred embodiments of the invention in conjunction with theaccompanying drawings, in which:

FIGS. 1(a) and 1(b) are views showing a double hinged cosmetic assemblyaccording to a preferred embodiment of the present invention;

FIG. 2 is a view showing the double hinged cosmetic assembly of FIG.1(a) seen from another angle;

FIG. 3 is a view showing a leg unit according to the preferredembodiment of the present invention;

FIG. 4 is a view showing the leg unit of FIG. 3 seen from another angle;

FIG. 5 is a view showing the leg unit of FIG. 3 seen from another angle;

FIG. 6 is a view showing a hinge unit according to the preferredembodiment of the present invention;

FIG. 7 is a view showing a first cosmetic module according to a firstembodiment of the present invention;

FIG. 8 is a view of the first cosmetic module of FIG. 7 seen fromanother angle;

FIG. 9 is a view showing a second cosmetic module according to the firstpreferred embodiment of the present invention;

FIG. 10 is a view showing a first cosmetic module according to a secondpreferred embodiment of the present invention;

FIG. 11 is a view showing a second cosmetic module according to thesecond preferred embodiment of the present invention;

FIG. 12 is a view showing a cap unit according to the embodiment of thepresent invention; and

FIGS. 13-15, 16(a) and 16(b) are views showing a double hinged cosmeticassembly according to a third preferred embodiment of the presentinvention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Hereinafter, the present invention will be described in detail withreference to the accompanying drawings. However, embodiments of thepresent invention may be implemented in several different forms and arenot limited to the embodiments described herein. In addition, partsirrelevant to description are omitted in the drawings in order toclearly explain embodiments of the present invention. Similar parts aredenoted by similar reference numerals throughout this specification.

Throughout this specification, when a part is referred to as being“connected” to another part, this includes “direct connection” and“indirect connection” via an intervening part. Also, when a certain part“includes” a certain component, other components are not excluded unlessexplicitly described otherwise, and other components may in fact beincluded.

It will be further understood that the words or terms used in thepresent invention are used to describe specific embodiments of thepresent invention and there is no intent to limit the present invention.The singular form of the components may be understood into the pluralform unless otherwise specifically stated in the context. It should bealso understood that the terms of ‘include’ or ‘have’ in thespecification are used to mean that there are characteristics, numbers,steps, operations, components, parts, or combinations of the steps,operations, components and parts described in the specification andthere is no intent to exclude existence or possibility of othercharacteristics, numbers, steps, operations, components, parts, orcombinations of the steps, operations, components and parts.

FIG. 1 is a view showing a double hinged cosmetic assembly according toa preferred embodiment of the present invention. The double hingedcosmetic assembly 10 may be called a “cosmetic assembly”.

Referring to FIG. 1, the cosmetic assembly 10 may include a leg unit 100and a hinge unit 200. The leg unit 100 may include a first leg unit 100a and a second leg unit 100 b. The first leg unit 100 a maysubstantially have the same structure as the second leg unit 100 b. Theleg unit 100 may be elongated from an end to another end.

An end portion of the first leg unit 100 a may be hinge-coupled to thehinge unit 200. That is, the first leg unit 100 a may be rotatablycoupled to the hinge unit 200. The first leg unit 100 a may be coupledto a first side of the hinge unit 200.

An end portion of the second leg unit 100 b may be hinge-coupled withthe hinge unit 200. That is, the second leg unit 100 b may be rotatablycoupled to the hinge unit 200. The second leg unit 100 b may be coupledto a second side of the hinge unit 200. The second side of the hingeunit 200 may be located at the opposite side of the first of the hingeunit 200.

The first leg unit 100 a may form an angle with respect to the hingeunit 200. The angle formed between the first leg unit 100 a and thehinge unit 200 may be called a “first angle”. The second leg unit 100 bmay form an angle with respect to the hinge unit 200. The angle formedbetween the second leg unit 100 b and the hinge unit 200 may be called a“second angle”.

The first leg unit 100 a and the second leg unit 100 b may form angleson the basis of the hinge unit 200. The angles formed by the first legunit 100 a and the second leg unit 100 b may be determined by the firstangle and the second angle.

Referring to FIG. 1(a), the angles formed by the first leg unit 100 aand the second leg unit 100 b may be 180 degrees in substance. Forinstance, the first leg unit 100 a may be located at the opposite sideof the second leg unit 100 b. In this instance, the cosmetic assembly 10may be in an unfolded state. Not shown in the drawings, but the firstleg unit 100 a and the second leg unit 100 b may be arranged side byside. In this instance, the cosmetic assembly 10 may be in a foldedstate.

Referring to FIG. 1(b), the angles formed by the first leg unit 100 aand the second leg unit 100 b may be lower than 180 degrees or may bezero degree. In this instance, the cosmetic assembly 10 may be in anintermediate state.

A cosmetic product may be located on another end portion of the leg unit100. The cosmetic product may include a cosmetic applicator and/or amakeup tool. The cosmetic product located on another end portion of thefirst leg unit 100 a may differ from the cosmetic product located onanother end portion of the second leg unit 100 b. In this instance, thecosmetic assembly 10 may provide the user with convenience to usedifferent cosmetic products.

FIG. 2 is a view showing the double hinged cosmetic assembly of FIG.1(a) seen from another angle.

Referring to FIG. 2, the leg unit 100 may include a rod 110 and a hingemodule 120. The hinge module 120 may be formed at the end portion of theleg unit 100. The hinge module 120 may be hinge-coupled with the hingeunit 200. The hinge module 120 may include a first hinge module 120 aand a second hinge module 120 b. The first leg unit 100 a may includethe first hinge module 120 a. The second leg unit 100 b may include thesecond hinge module 120 b.

For instance, an end of the rod 110 may be connected to the hinge module120. The rod 110 may be elongated from the hinge module 120 to anotherend. The rod 110 may include a first rod 110 a and a second rod 110 b.The first leg unit 100 a may include the first rod 110 a. The second legunit 100 b may include the second rod 110 b.

The leg unit 100 may include a cosmetic module 130. The cosmetic module130 may include a cosmetic product. Alternatively, the cosmetic module130 may contain cosmetic ingredients. The cosmetic module 130 may beconnected to the other end of the rod 110. For instance, the cosmeticmodule 130 may be elongated from the other end of the rod 110. Thecosmetic module 130 may be coupled to the rod 110. For instance, thecosmetic module 130 is coupled to the rod 110 to be replaceable.

The cosmetic module 130 may include a first cosmetic module 130 a and asecond cosmetic module 130 b. The first cosmetic module 130 a may becoupled to the first rod 110 a. The second cosmetic module 130 b may becoupled to the second rod 110 b. The first leg unit 100 a may includethe first cosmetic module 130 a. The second leg unit 100 b may includethe second cosmetic module 130 b.

The first cosmetic module 130 a may include, for instance, a brush. Thesecond cosmetic module 130 b may include an eyebrow pencil (not shown).The brush and/or the eyebrow pencil may be replaceable.

The first cosmetic module 130 a and the second cosmetic module 140 b mayfunctionally complement each other. Therefore, a user who carries thesecond cosmetic module 130 b may demand or need the first cosmeticmodule 130 a. So, if the cosmetic assembly 10 includes not only thefirst cosmetic module 130 a but also the second cosmetic module 130 b,it may increase the utility of the cosmetic assembly 10.

The user may do makeup using the cosmetic assembly 10 which is in theunfolded state. The cosmetic assembly 10 of the unfolded state has ashape for allowing the user to easily do makeup. The user mayimmediately use the first cosmetic module 130 a after using the secondcosmetic module 130 b. After finishing makeup, the user can change thestate of the cosmetic assembly 10 into the folded state. Because thecosmetic assembly 10 in the folded state is relatively small, it isrelatively suitable for keeping and carrying.

FIG. 3 is a view showing a leg unit 100 according to the preferredembodiment of the present invention, and FIG. 4 is a view showing theleg unit of FIG. 3 seen from another angle.

Referring to FIGS. 3 and 4, the leg unit 100 may include a hinge module120. The hinge module 120 may form an end portion of the leg unit 100.The hinge module 120 may be hinge-coupled to the hinge unit 200 (SeeFIG. 2). For instance, the hinge module 120 may be hinge-coupled to onesurface of the hinge unit 200 (See FIG. 2). The portion of the hingeunit 200 (See FIG. 2) which is coupled to the hinge module 120 will becalled a “hinge-coupled portion”.

The hinge module 120 may include a hinge frame 121. The hinge frame 121may form a frame of the hinge module 120. The hinge frame 121 mayaccommodate a part of the hinge unit 200 (See FIG. 2). For instance, thehinge frame 121 may accommodate the hinge-coupled portion of the hingeunit 200 (See FIG. 2).

The hinge frame 121 may have an inner space. The inner space formed inthe hinge frame 121 may be opened partially. For instance, the innerspace formed in the hinge frame 121 may be opened toward a front sideand an upper side. A part of the hinge unit 200 (See FIG. 2) may belocated in the inner space formed in the hinge frame 121.

The hinge-coupled portion located in the inner space of the hinge frame121 may be elongated to the remaining portion of the hinge unit 200 (SeeFIG. 2) through the opened areas of the inner space of the hinge frame121.

The hinge frame 121 may include a bottom panel 1214. The bottom panel1214 may be connected to the rod 110. The bottom panel 1214 may form thebottom of the hinge frame 121.

The hinge frame 121 may include a first lateral surface panel 1211 and asecond lateral surface panel 1212. The first lateral surface panel 1211and the second lateral surface panel 1212 may be extended upwardly fromboth ends of the bottom panel 1214. The first lateral surface panel 1211and the second lateral surface panel 1212 may be spaced apart from eachother to face each other.

The hinge frame 121 may include a rear panel 1213. The rear panel 1213may be extended upwardly from the bottom panel 1214. The rear panel 1213may be extended from a rear end of the first lateral surface panel 1211and extended to a rear end of the second lateral surface panel 1212. Thefirst lateral surface panel 1211, the second lateral surface panel 1212,the rear panel 1213, and the bottom panel 1214 may form the space openedat the front and the top.

The hinge module 120 may include a first hinge coupling portion 123. Thefirst hinge coupling portion 123 may be coupled to the hinge unit 200(See FIG. 2). The first hinge coupling portion 123 may be located on thehinge frame 121. For instance, the first hinge coupling portion 123 maybe formed at the hinge frame 121. For instance, the first hinge couplingportion 123 may be dented on an inner surface of the hinge frame 121.The inner surface of the hinge frame 121 means a surface facing theinner space formed by the hinge frame 121.

The first hinge coupling portion 123 may be located, for instance, onthe first lateral surface panel 1211 and/or the second lateral surfacepanel 1212. The first hinge coupling portion 123 may include a firstlateral surface first hinge coupling portion 1231 and a second lateralsurface first hinge coupling portion 1232.

The first lateral surface first hinge coupling portion 1231 may belocated on the first lateral surface panel 1211. The second lateralsurface first hinge coupling portion 1232 may be located on the secondlateral surface panel 1212. The first lateral surface first hingecoupling portion 1231 may be formed to be concave toward the secondlateral surface first hinge coupling portion 1232. The second lateralsurface first hinge coupling portion 1232 may be formed to be concavetoward the first lateral surface first hinge coupling portion 1231.

The first hinge coupling portion 123 may form a rotation axis of thehinge module 120. The rotation axis of the hinge module 120 may be seton the basis of the hinge unit 200 (See FIG. 2). The rotation axis ofthe hinge module 120 may be a virtual axis. A contour of the first hingecoupling portion 123 may include at least a part of a circle. The hingemodule 120 may rotate with respect to the hinge unit 200 (See FIG. 2) onthe basis of the first hinge coupling portion 123.

The hinge module 120 may include a first stopper module 125. The firststopper module 125 may be coupled to the hinge unit 200 (See FIG. 2).The first stopper module 125 may restrain rotation with respect to thehinge unit 200 (See FIG. 2) of the hinge module 120. For instance, if anexternal force less than a predetermined size is applied to the leg unit100, rotation with respect to the hinge unit 200 (See FIG. 2) of thehinge module 120 may be restrained by an action between the firststopper module 125 and the hinge unit 200 (See FIG. 2). Additionally, ifan external force more than a predetermined size is applied to the legunit 100, the hinge module 120 may rotate with respect to the hinge unit200 (See FIG. 2).

The first stopper module 125 may form the hinge frame 121. The firststopper module 125 may be formed, for instance, by protruding from thehinge frame 121. The first stopper module 125 may be formed, forinstance, by protruding from the inner surface of the hinge frame 121.

The first stopper module 125 may include a first lateral surface firststopper module 1251 and a second lateral surface first stopper module1252. The first lateral surface first stopper module 1251 is located ona lower end portion of the first lateral surface panel 1211. The secondlateral surface first stopper module 1252 may be located on a lower endportion of the second lateral surface panel 1212.

FIG. 5 is a view showing the leg unit of FIG. 3 seen from another angle.

Referring to FIG. 5, the rod 110 may be elongated from the hinge module120. For instance, the rod 110 may be connected to the bottom panel1214. An end portion of the rod 110 may be connected to the hinge module120. The rod 110 may be elongated from an end to another end. Alongitudinal direction of the rod 110 may be aligned with a directionfacing from the end to the other end of the rod 110.

The rod 110 may include a rod body 111. The rod body 111 may beelongated in the longitudinal direction. An end of the rod body 111 maybe connected or coupled to the hinge module 120. For instance, the rodbody 111 may be elongated from the hinge module 120. The rod body 111may have a hollow portion formed therein. The cosmetic module 130 (SeeFIG. 2) may be inserted into the hollow portion formed in the rod body111. In other words, a portion of the cosmetic module 130 (See FIG. 2)may be located in the hollow portion formed in the rod body 111.

The rod 110 may include an outer rod coupling portion 113. The outer rodcoupling portion 113 may be located on an outer surface of the rod body111. The outer surface of the rod body 111 means a surface which isobservable from the outside of the rod body 111. The outer rod couplingportion 113 may be coupled to a cap, which will be described later. Theouter rod coupling portion 113 may be adjacent to the end of the rodbody 111.

The rod 110 may include a rod opening part 115. The rod opening part 115may be formed at another end of the rod body 111. The rod opening part115 may be connected to the hollow portion formed in the rod body 111.The cosmetic module 130 (See FIG. 2) may be inserted into the rod body111 through the rod opening part 115.

The rod 110 may include an inner rod coupling portion 117. The inner rodcoupling portion 117 may be adjacent to the rod opening part 115. Theinner rod coupling portion 117 may be located on an inner surface of therod body 111. The inner surface of the rod body 111 means a surfacewhich gets in contact with the hollow portion formed in the rod body111. The inner rod coupling portion 117 may be coupled to the cosmeticmodule 130 (See FIG. 2).

FIG. 6 is a view showing the hinge unit 200 according to the preferredembodiment of the present invention.

Referring to FIG. 6, the hinge unit 200 may be elongated from the firstlateral surface to the second lateral surface. The first lateral surfaceof the hinge unit 200 may be coupled to the first leg unit 100 a (SeeFIG. 2). The second lateral surface of the hinge unit 200 may be coupledto the second leg unit 100 b (See FIG. 2).

The hinge unit 200 may include a hinge body 210. The hinge body 210 mayform a frame of the hinge unit 200. The hinge body 210 may be in acylindrical shape overall.

The hinge body 210 may include a hinge body first lateral surface 211and a hinge body second lateral surface (not shown). The hinge bodyfirst lateral surface 211 and the hinge body second lateral surface (notshown) may form a part of an outer surface of the hinge body 210.

The hinge body second lateral surface (not shown) may be located at theopposite side of the hinge body first lateral surface 211. A directionthat the hinge body second lateral surface (not shown) faces may beopposite to a direction that the hinge body first lateral surface 211faces.

When the hinge unit 200 is coupled to the leg unit 100 (See FIGS. 3 to5), the hinge body first lateral surface 211 may face the first lateralsurface panel 1211 (See FIG. 3), and the hinge body second lateralsurface (not shown) may face the second lateral surface panel 1212 (SeeFIG. 4).

The hinge body 210 may include a hinge body intermediate face 212. Thehinge body intermediate face 212 may be formed between the hinge bodyfirst lateral surface 211 and the hinge body second lateral surface (notshown). For instance, the hinge body intermediate face 212 may beelongated from a contour of the hinge body first lateral surface 211 toa contour of the hinge body second lateral surface (not shown).

The hinge unit 200 may include a second hinge coupling portion 220. Thesecond hinge coupling portion 220 may be located on the hinge body 210.The second hinge coupling portion 220 may be coupled to the first hingecoupling portion 123 (See FIGS. 3 and 4). A shape of the second hingecoupling portion 220 may correspond to the shape of the first hingecoupling portion 123 (See FIGS. 3 and 4). For instance, the first hingecoupling portion 123 (See FIGS. 3 and 4) may be formed to be concave andthe second hinge coupling portion 220 may be formed to be convex. Notshown in the drawings, but the first hinge coupling portion 123 (SeeFIGS. 3 and 4) may be formed to be convex and the second hinge couplingportion 220 may be formed to be concave.

The second hinge coupling portion 220 may include a first side secondhinge coupling portion 220 a and a second side second hinge couplingportion 220 b. The first side second hinge coupling portion 220 a may becoupled to the first leg unit 100 a (See FIG. 2). The second side secondhinge coupling portion 220 b may be coupled to the second leg unit 100 b(See FIG. 2).

The second hinge coupling portion 220 may include a first lateralsurface second hinge coupling portion 221. The first lateral surfacesecond hinge coupling portion 221 may be positioned at the hinge bodyfirst surface 211. For instance, the first lateral surface second hingecoupling portion 221 may protrude from the hinge body first lateralsurface 211. The first lateral surface second hinge coupling portion 221may be coupled to the first lateral surface first hinge coupling portion1231 (See FIG. 3). The first lateral surface second hinge couplingportion 221 may include a first side first lateral surface second hingecoupling portion 221 a coupled to the first leg unit 100 a (See FIG. 2).The first lateral surface second hinge coupling portion 221 may includea second side first lateral surface second hinge coupling portion 221 bcoupled to the second leg unit 100 b (See FIG. 2).

The second hinge coupling portion 220 may include a second lateralsurface second hinge coupling portion 222. The second lateral surfacesecond hinge coupling portion 221 may be located on the second lateralsurface (not shown) of the hinge body. For instance, the second lateralsurface second hinge coupling portion 222 may be formed to protrude fromthe hinge body second lateral surface (not shown). The second lateralsurface second hinge coupling portion 222 may be coupled to the secondlateral surface first hinge coupling portion 1232 (See FIG. 4). Thesecond lateral surface second hinge coupling portion 222 may include afirst side second lateral surface second hinge coupling portion 222 acoupled to the first leg unit 100 a (See FIG. 2). The second lateralsurface second hinge coupling portion 222 may include a second sidesecond lateral surface second hinge coupling portion 222 b coupled tothe second leg unit 100 b (See FIG. 2).

The first side second hinge coupling portion 220 a may include a firstside first lateral surface second hinge coupling portion 221 a and afirst side second lateral surface second hinge coupling portion 222 a.The second side second hinge coupling portion 220 b includes a secondside first lateral surface second hinge coupling portion 221 b and asecond side second lateral surface second hinge coupling portion 222 b.

The second hinge coupling portion 220 may form a rotation axis of theleg unit 100 (See FIG. 2) with respect to the hinge unit 200. Forinstance, the first side second hinge coupling portion 220 a may form arotation axis of the first leg unit 100 a (See FIG. 2) with respect tothe hinge unit 200. For instance, the second side second hinge couplingportion 220 b may form a rotation axis of the second leg unit 100 b (SeeFIG. 2) with respect to the hinge unit 200.

The hinge unit 200 may include a second stopper module 230. The secondstopper module 230 may be formed at the hinge body 210. For instance,the second stopper module 230 may be formed at the hinge bodyintermediate face 212. The second stopper module 230 may be coupled tothe first stopper module 125 (See FIGS. 3 and 4). A shape of the secondstopper module 230 may correspond to the shape of the first stoppermodule 125 (See FIGS. 3 and 4).

When the first stopper module 125 (See FIGS. 3 and 4) and the secondstopper module 230 are coupled to each other, rotation of the leg unit100 (See FIG. 2) with respect to the hinge unit 200 may be restrained.For instance, if an external force less than a predetermined size isapplied to the leg unit 100 (See FIG. 2), rotation of the leg unit 100(See FIG. 2) with respect to the hinge unit 200 (See FIG. 2) may berestrained.

Additionally, if an external force more than a predetermined size isapplied to the leg unit 100 (See FIG. 2), the first stopper module 125(See FIGS. 3 and 4) may be separated from the second stopper module 230.When the first stopper module 125 (See FIGS. 3 and 4) is separated fromthe second stopper module 230, the leg unit 100 (See FIG. 2) may rotatewith respect to the hinge unit 200.

The second stopper module 230 may include a first latera surface secondstopper module 231. The first lateral surface second stopper module 231may be adjacent to the hinge body first lateral surface 211. The firstlateral surface second stopper module 231 may be coupled to the firstlateral surface first stopper module 1251 (See FIG. 3).

The second stopper module 230 includes a second lateral surface secondstopper module 232. The second lateral surface second stopper module 232may be adjacent to the hinge body second lateral surface (not shown).The second lateral surface second stopper module 232 may be coupled tothe second lateral surface first stopper module 1252 (See FIG. 4).

The second stopper module 230 may include a first side second stoppermodule 230 a. The first side second stopper module 230 a may include afirst side first lateral surface second stopper module 231 a and a firstside second lateral surface second stopper module 231 b. The first sidesecond stopper module 230 a may be coupled to the first leg unit 100 a(See FIG. 2).

The second stopper module 230 may include a second side second stoppermodule 230 b. The second side second stopper module 230 b may include asecond side first lateral surface second stopper module 231 b and asecond side second lateral surface second stopper module 232 b. Thesecond side second stopper module 230 b may be coupled to the second legunit 100 b (See FIG. 2).

The first lateral surface second stopper module 231 may include a firstside first lateral second stopper module 231 a and a second side firstlateral surface second stopper module 231 b. A plurality of the firstside first lateral surface second stopper modules 231 a and a pluralityof the second side first lateral surface second stopper modules 231 bmay be provided.

The second lateral surface second stopper module 232 may include a firstside second lateral surface second stopper module 232 a and a secondside second lateral surface second stopper module 232 b. A plurality ofthe first side second lateral surface second stopper modules 232 a and aplurality of the second side second lateral surface second stoppermodules 232 b may be provided.

A plurality of the first side first lateral surface second stoppermodules 231 a may be provided. Therefore, the first side first lateralsurface stopper module 1251 (See FIG. 3) disposed at the first leg unit100 a (See FIG. 2) may be coupled to any one among the first side firstlateral surface second stopper modules 231 a according to rotation ofthe first leg unit 100 a (See FIG. 2). That is, the plurality of thefirst side first lateral surface second stopper modules 231 a maydiscontinuously restrain rotation of the first leg unit 100 a (See FIG.2).

A plurality of the first side second lateral surface second stoppermodules 232 a may be also provided in the same way. That is, the secondlateral surface first stopper module 1252 (See FIG. 4) disposed at thefirst leg unit 100 a (See FIG. 2) may be coupled to any one among thefirst side second lateral surface second stopper modules 232 a accordingto rotation of the first leg unit 100 a (See FIG. 2).

The second stopper module 230 b may be symmetrical with the firststopper module 230 a. That is, the first stopper module 125 (See FIGS. 3and 4) disposed at the second leg unit 100 b (See FIG. 2) may be coupledto any one among the second stopper modules 230 b according to rotationof the second leg unit 100 b (See FIG. 2). Therefore, rotation of thesecond leg unit 100 b (See FIG. 2) may be restrained discontinuously.

FIG. 7 is a view showing a first cosmetic module 300 according to afirst embodiment of the present invention, and FIG. 8 is a view of thefirst cosmetic module 300 of FIG. 7 seen from another angle.

Referring to FIGS. 7 and 8, the cosmetic module 130 may include a firstcosmetic module 300. The first cosmetic module 300 may be coupled to therod body 111 (See FIGS. 3 and 4). The first cosmetic module 300 coupledto the rod body 111 (See FIGS. 3 and 4) may be separated from the rodbody 111 (See FIGS. 3 and 4). The first cosmetic module 300 may beelongated from an end to another end.

The first cosmetic module 300 may include a coupling body 310. Thecoupling body 310 may form the end of the first cosmetic module 300. Thecoupling body 310 may be coupled to the rod body 111 (See FIGS. 3 to 5).For instance, the coupling body 310 may be inserted into the rod body111 (See FIGS. 3 to 5) through the rod opening part 115 (See FIG. 5).

The coupling body 310 may have a hollow portion formed therein. Thecoupling body 310 may further include a coupled opening part 313 formedat an end of the coupling body 310. The coupled opening part 313 isconnected to the hollow portion formed in the coupling body 310. Thecoupling body 310 has an inner coupling portion 315 formed on an innersurface of the coupling body 310. The inner surface of the coupling body310 means a face to form the hollow portion of the coupling body 310.The inner coupling portion 315 is adjacent to the coupled opening part313.

The first cosmetic module 300 may include an outer body 320. The outerbody 320 may be extended from the coupling body 310. In a state wherethe first cosmetic module 300 may be coupled to the rod body 111 (SeeFIGS. 3 to 5), at least a part of the outer body 320 may be locatedoutside the rod body 111 (See FIGS. 3 to 5).

The first cosmetic module 300 may include a body connection part 330.The body connection part 330 may connect the coupling body 310 with theouter body 320. The body connection part 330 may be located between thecoupling body 310 and the outer body 320. The body connection part 330may be coupled to the rod 110 (See FIGS. 3 to 5). For instance, the bodyconnection part 330 may be coupled to the inner rod coupling portion 117(See FIG. 5). A shape of the body connection part 330 may correspond tothe shape of the inner rod coupling portion 117 (See FIG. 5). Forinstance, the inner rod coupling portion 117 (See FIG. 5) may be formedin a convex shape and the body connection part 330 may be formed in aconcave shape. Alternatively, not shown in the drawings, but the innerrod coupling portion 117 (See FIG. 5) may be formed in a concave shapeand the body connection part 330 may be formed in a convex shape.Additionally, not shown in the drawings, but the inner rod couplingportion 117 (See FIG. 5) and the body connection part 330 may be allformed in a convex shape to engage with each other.

The outer body 320 may an end connected to the body connection part 330.The outer body 320 may have a hollow portion formed therein. The outerbody 320 may further include an outer opening part 323 formed at anotherend of the outer body 320. The outer opening part 323 may be connectedto the hollow portion formed in the outer body 320.

A cosmetic product may be inserted into the outer body 320 through theouter opening part 323. For instance, an eyebrow pencil may be insertedinto the outer body 320 through the outer opening part 323. In addition,liquid cosmetic ingredients may be discharged from the outer body 320through the outer opening part 323.

FIG. 9 is a view showing a second cosmetic module 400 according to thefirst preferred embodiment of the present invention.

Referring to FIG. 9, the second cosmetic module 400 may include a shaft410. The shaft 410 may be elongated from an end to another end. Theshaft 410 may be inserted into the first cosmetic module 300 (See FIGS.7 and 8). The shaft 410 may be connected to the hinge module 120 (SeeFIGS. 3 to 5). For instance, an end portion of the shaft 410 may beadjacent to the hinge module 120 (See FIGS. 3 to 5). The shaft 410 mayhave a screw thread 415 formed on an outer surface thereof. The screwthread 415 may be coupled to the inside of the rod 110 (See FIGS. 3 to5) together with a ring member.

The second cosmetic module 400 may include a holder 420. The holder 420may include a holder body 421. The holder body 421 extends from theshaft 410. The holder body 421 may have a hollow portion formed therein.The holder body 421 may have a holder opening part 423 located on an endportion of the holder body 421. The holder opening part 423 may beconnected with an opening part formed in the holder body 421. The holder420 may contain cosmetic ingredients and/or makeup tools. The makeuptools contained in the holder body 421 may be exposed to the outsidethrough the holder opening part 423. Alternatively, the cosmeticingredients contained in the holder body 421 may be discharged to theoutside through the holder opening part 423.

FIG. 10 is a view showing a first cosmetic module 300 according to asecond preferred embodiment of the present invention.

Referring to FIG. 10, the first cosmetic module 300 according to thesecond preferred embodiment of the present invention may have astructure similar to the structure of the first cosmetic module 300 (SeeFIGS. 7 and 8) according to the first preferred embodiment of thepresent invention. The first cosmetic module 300 according to the secondpreferred embodiment of the present invention may be shorter than thefirst cosmetic module 300 (See FIGS. 7 and 8) according to the firstpreferred embodiment of the present invention. The first cosmetic module300 according to the second preferred embodiment of the presentinvention may be useful to couple the cosmetic products, for instance,brushes.

The coupling body 310 may be inserted into the rod body 111 (See FIG. 5)through the rod opening part 115 (See FIG. 5). At least a portion of theouter body 320 may be located outside the rod body 111 (See FIG. 5). Theouter body 320 may be extended from the coupling body 310. The bodyconnection part 330 may be located between the coupling body 310 and theouter body 320. The body connection part 330 may be coupled to the innerrod coupling portion 117 (See FIG. 5).

FIG. 11 is a view showing a second cosmetic module 400 according to thesecond preferred embodiment of the present invention.

Referring to FIG. 11, the second cosmetic module 400 according to thesecond preferred embodiment of the present invention may be a makeuptool. For instance, the second cosmetic module 400 may be a brush. Thesecond cosmetic module 400 may be inserted into the first cosmeticmodule 300 (See FIG. 10).

FIG. 12 is a view showing a cap unit 500 according to the embodiment ofthe present invention.

Referring to FIG. 12, the cosmetic assembly 10 (See FIG. 2) may includea cap unit 500. The cap unit 500 may include a cap body 510. The capbody 510 may be elongated from an end to another end. The cap body 510may have a hollow portion formed therein. The hollow portion formed inthe cap body 510 may be stopped at the other end of the cap body 510.The hollow portion formed in the cap body 510 may be opened at the endof the cap body 510. For instance, an opening part may be formed at theend of the cap body 510.

The cap body 510 may contain the leg unit 100 (See FIG. 2). Forinstance, the cap body 510 may accommodate the leg unit 100 (See FIG. 2)of the folded state. The user can change the leg unit 100 (See FIG. 2)of the folded state into the unfolded state after separating the capbody 510 from the leg unit 100 (See FIG. 2). The user can do makeupusing the leg unit 100 (See FIG. 2) of the unfolded state. The cap body510 may be useful for the user to carry the cosmetic assembly 10.

The cap unit 500 may include an internal panel 520. The internal panel520 may be located inside the cap body 510. The internal panel 520coupled to the leg unit 100 (See FIG. 2) in the state where the cap unit500 is folded is located between the first leg unit 100 a (See FIG. 2)and the second leg unit 100 b (See FIG. 2). The internal panel 520 mayrestrain interference between the first leg unit 100 a (See FIG. 2) andthe second leg unit 100 b (See FIG. 2).

The cap unit 500 may include a cap coupling portion 530. The capcoupling portion 530 may be located on an inner surface of the cap body510. The inner surface of the cap body 510 means a surface to form thehollow portion of the cap body 510. The cap coupling portion 530 may beadjacent to an end of the cap body 510.

The cap coupling portion 530 may be coupled to the outer rod couplingportion 113 (See FIG. 5). A shape of the cap coupling portion 530 maycorrespond to the shape of the outer rod coupling portion 113 (See FIG.5). For instance, the outer rod coupling portion 113 (See FIG. 5) may beformed in a convex shape and the cap coupling portion 530 may be formedin a concave shape. Alternatively, not shown in the drawings, but theouter rod coupling portion 113 (See FIG. 5) may be formed in a concaveshape and the cap coupling portion 530 may be formed in a convex shape.Additionally, not shown in the drawings, but the outer rod couplingportion 113 (See FIG. 5) and the cap coupling portion 530 may be allformed in a convex shape to engage with each other.

FIG. 13 is a view showing a double hinged cosmetic assembly 10 accordingto a third preferred embodiment of the present invention.

Referring to FIG. 13, the double hinged cosmetic assembly 10 may includea leg unit 100 and a hinge unit 200. The hinge unit 200 may behinge-coupled to the leg unit 100. The hinge unit 200 may be formed tosurround an end portion of the leg unit 100.

The leg unit 100 may include a first leg unit 100 a and a second legunit 100 b. A structure of the second leg unit 100 b may besubstantially the same as the first leg unit 100 a.

The leg unit 100 may include a rod 100 and a cosmetic module 130. Forinstance, the first leg unit 100 a may include a first rod 110 a and afirst cosmetic module 130 a. For instance, the second leg unit 100 b mayinclude a second rod 110 b and a second cosmetic module 130 b.

The first rod 110 a and the second rod 110 b may be hinge-coupled to thehinge unit 200. For example, an end of the first rod 110 a may behinge-coupled to the hinge unit 200, and another end of the first rod110 a may be coupled to the first cosmetic module 130 a. The first rod110 a may rotate with respect to the hinge unit 200. The rotation of thefirst rod 110 a with respect to the hinge unit 200 may be called a“first rotation”.

For instance, an end of the second rod 110 b may be hinge-coupled to thehinge unit 200, and another end of the second rod 110 b may be coupledto the second cosmetic module 130 b. The second rod 110 b may rotatewith respect to the hinge unit 200. The rotation of the second rod 110 bwith respect to the hinge unit 200 may be called a “second rotation”.

The first rod 110 a and the second rod 110 b may be coupled with eachother. For instance, the end of the first rod 110 a and the end of thesecond rod 110 b may engage with each other. Therefore, the firstrotation of the first rod 110 a may influence on and may be influencedby the second rotation of the second rod 110 b. For example, a rotatingamount of the first rotation may be equal with a rotating amount of thesecond rotation.

FIG. 14 is a view showing the leg unit 100 illustrated in FIG. 13. InFIG. 14, for the convenience of description, the cosmetic module 130(See FIG. 13) will be omitted.

Referring to FIG. 14, the leg unit 100 may include the rod 110 and thehinge module 120. The hinge module 120 may form the end of the leg unit100. The rod may be elongated from the hinge module 120.

The hinge module 120 may include a hinge frame 121. The hinge frame 121may form a frame of the hinge module 120. The hinge frame 120 may rotatein a state where the hinge frame 120 is accommodated in the hinge unit200 (See FIG. 13).

The hinge module 120 may include a first hinge coupling portion 123. Thefirst hinge coupling portion 123 may be located on the hinge frame 121.For instance, the first hinge coupling portion 123 may protrude from thehinge frame 121. The first hinge coupling portion 123 illustrated inFIG. 14 may be a first lateral surface first hinge coupling portion 123.That is, the first hinge coupling portion 123 illustrated in FIG. 14 mayform a first lateral surface. Not shown in FIG. 14, but a second lateralsurface first hinge coupling portion may be located on the opposite sideof the first lateral surface first hinge coupling portion 123. The firsthinge coupling portion 123 may be hinge-coupled to the hinge unit 200(See FIG. 13).

The hinge module 120 may include a gear coupling portion 127. The gearcoupling portion 127 may be formed on the hinge frame 121. The gearcoupling portion 127 disposed at the first leg unit 100 a (See FIG. 13)may engage with the gear coupling portion 127 disposed at the second legunit 100 b (See FIG. 13).

The gear coupling portion 127 disposed at the first leg unit 100 a (SeeFIG. 13) may be called a “first gear coupling portion”. The gearcoupling portion 127 disposed at the second leg unit 100 b (See FIG. 13)may be called a “second gear coupling portion”.

FIG. 15 is a view showing the hinge unit 200 illustrated in FIG. 13.

Referring to FIG. 15, the hinge unit 200 may be elongated from the firstside to the second side. The hinge unit 200 may include a first lateralsurface hinge plate 250, a second lateral surface hinge plate 260, and aconnection plate 270. The first lateral surface hinge plate 250 may facethe second lateral surface hinge plate 260. The end portion of the legunit 100 may be located between the first lateral surface hinge plate250 and the second lateral surface hinge plate 260.

The first lateral surface hinge plate 250 may face the first lateralsurface of the leg unit 100 (See FIG. 13). For instance, the secondlateral surface hinge plate 260 may face the second lateral surfacefirst hinge coupling portion 123 (not shown).

The hinge unit 200 may include second hinge coupling portions 251, 252,261 and 262. The second hinge coupling portions 251, 252, 261 and 262may include first lateral surface second hinge coupling portions 251 and252 and second lateral surface second hinge coupling portions 261 and262.

The first lateral surface second hinge coupling portions 251 and 252 maybe formed on the first lateral surface hinge plate 250. The firstlateral surface second hinge coupling portions 251 and 252 may face thesecond lateral surface hinge plate 260. The first lateral surface secondhinge coupling portions 251 and 252 may be formed in such a way as to bedented from the first lateral surface hinge plate 250.

The first lateral surface second hinge coupling portions 251 and 252 maymean at least one among the first side first lateral surface secondhinge coupling portion 251 and the second side first lateral surfacesecond hinge coupling portion 252.

The second lateral surface second hinge coupling portions 261 and 262may be formed on the second lateral surface hinge plate 260. The secondlateral surface second hinge coupling portions 261 and 262 may face thefirst lateral surface hinge plate 250. The second lateral surface secondhinge coupling portions 261 and 262 may be formed in such a way as to bedented from the second lateral surface hinge plate 260.

The second lateral surface second hinge coupling portions 261 and 262may mean at least one among the first side second lateral surface secondhinge coupling portion 261 and the second side second lateral surfacesecond hinge coupling portion 262.

The first side second hinge coupling portions 251 and 261 may mean atleast one among the first side first lateral surface second hingecoupling portion 251 and the first side second lateral surface secondhinge coupling portion 261. The first side second hinge couplingportions 251 and 261 may be coupled to the first leg unit 100 a (SeeFIG. 13).

The second side second hinge coupling portions 252 and 262 may mean atleast one among the second side first lateral surface second hingecoupling portion 252 and the second side second lateral surface secondhinge coupling portion 262. The second side second hinge couplingportions 252 and 262 may be coupled to the second leg unit 100 b (SeeFIG. 13).

The connection plate 270 of the hinge unit 200 may connect the firstlateral surface plate 250 and the second lateral surface plate 260 witheach other. The first lateral surface plate 250, the connection plate270, and the second lateral surface plate 260 may be connected in order.The first lateral surface plate 250, the connection plate 270, and thesecond lateral surface plate 260 may form a space opened toward the legunit 100 (See FIG. 13).

A first side first lateral surface round 255 may be formed on the firstlateral surface plate 250. The first side first lateral surface round255 may be adjacent to the first side first lateral surface second hingecoupling portion 251.

A first side second lateral surface round 265 may be formed on thesecond lateral surface plate 260. The first side second lateral surfaceround 265 may be adjacent to the first side second lateral surfacesecond hinge coupling portion 261.

The first side rounds 255 and 265 may mean at least one among the firstside first lateral surface round 255 and the first side second lateralsurface round 265. The first side rounds 255 and 265 may face the firstleg unit 100 a (See FIG. 13) according to rotation of the first leg unit100 a (See FIG. 13).

The second side first lateral surface round 256 may be formed on thefirst lateral surface plate 250. The second side first lateral surfaceround 256 may be adjacent to the second side first lateral surfacesecond hinge coupling portion 252.

The second side second lateral surface round 266 may be formed on thesecond lateral surface plate 260. The second side second lateral surfaceround 266 may be adjacent to the second side second lateral surfacesecond hinge coupling portion 262.

The second side rounds 256 and 266 may mean at least one among thesecond side first lateral surface round 256 and the second side secondlateral surface round 266. The second side rounds 256 and 266 may facethe second leg unit 100 b (See FIG. 13) according to rotation of thesecond leg unit 100 b (See FIG. 13).

FIG. 16 is a view showing an operation of the cosmetic assembly 10illustrated in FIG. 13. In FIG. 16, for convenience of description, thecosmetic module 130 (See FIG. 13) will be omitted. FIG. 16(a)illustrates a folded state of the cosmetic assembly 10. FIG. 16(b)illustrates an unfolded state of the cosmetic assembly 10. In FIG. 16,the hinge unit 200 may be shown transparently or translucently forconvenience of description.

Referring to FIG. 16, a first gear coupling portion 127 a of a firsthinge module 120 a may be coupled to a second gear coupling portion 127b of a second hinge module 120 b. If one among the first hinge module120 a and the second hinge module 120 b rotates in the hinge unit 200,it may influence on the other one by the gear coupling portion 127.

For instance, when the first hinge module 120 a rotates in the hingeunit 200, the first gear coupling portion 127 a may transfer rotatingpower to the second gear coupling portion 127 b. When the second gearcoupling portion 127 b receives the rotating power, the second hingemodule 120 a may rotate in the hinge unit 200. That is, when the firsthinge module 120 a rotates in the hinge unit 200, the second hingemodule 120 a may rotate in the hinge unit 200. For another example, whenthe second hinge module 120 b rotates in the hinge unit 200, the firsthinge module 120 a may rotate in the hinge unit 200.

The first gear coupling portion 127 a and the second gear couplingportion 127 b may be gear-coupled with each other. Therefore, a rotationdirection of the first gear coupling portion 127 a may be in theopposite direction to a rotation direction of the second gear couplingportion 127 b. That is, the rotation directions of the first gearcoupling portion 127 a and the second gear coupling portion 127 b may bea direction that the first rod 110 a and the second rod 110 b areextended or retract.

Referring to FIGS. 13 to 16, the first lateral surface first hingecoupling portion 123 of the leg unit 100 may be hinge-coupled to thefirst lateral surface second hinge coupling portions 251 and 252 of thehinge unit 200. The second lateral surface second hinge coupling portion(not shown) of the leg unit 100 may be hinge-coupled to the secondlateral surface second hinge coupling portions 261 and 262 of the hingeunit 200.

The gear coupling portion 127 of the leg unit 100 may be located betweenthe first lateral surface plate 250 and the second lateral surface plate260. The first gear coupling portion 127 a may engage with the secondgear coupling portion 127 b to be coupled with each other.

Now rotation of the leg unit 100 with respect to the hinge unit 200 willbe described. The leg unit 100 may rotate with respect to the hinge unit200. For instance, the first leg unit 100 a and the second leg unit 100b may respectively rotate with respect to the hinge unit 200.

The first gear coupling portion 127 a may be coupled to the second gearcoupling portion 127 b. A gear ratio of the second gear coupling portion126 b to the first gear coupling portion 127 a may be, for example, one.The rotating amount of the first rotation may be the same as the secondrotation.

For instance, if the rotating amount of the first rotation is 90degrees, the rotating amount of the second rotation may be 90 degrees.In this instance, the first leg unit 100 a and the second leg unit 100 bmay be in the unfolded state. For another example, if the rotatingamount of the first rotation is zero degree, the rotating amount of thesecond rotation may be zero degree. In this instance, the first leg unit100 a and the second leg unit 100 b may be in the folded state.Therefore, the first leg unit 100 a and the second leg unit 100 b mayrotate with respect to the hinge unit 200 stably.

The above description is only exemplary, and it will be understood bythose skilled in the art that the invention may be embodied in otherconcrete forms without changing the technological scope and essentialfeatures. Therefore, the above-described embodiments should beconsidered only as examples in all aspects and not for purposes oflimitation. For example, each component described as a single type maybe realized in a distributed manner, and similarly, components that aredescribed as being distributed may be realized in a coupled manner.

The scope of the present invention is defined by the appended claims,and encompasses all modifications or alterations derived from meanings,the scope and equivalents of the appended claims.

What is claimed is:
 1. A cosmetic assembly comprising: a hinge unitextending from a first lateral surface to a second lateral surface; anda leg unit being hinge-coupled to the hinge unit and elongated from anend to another end, the end of the leg unit being connected to the hingeunit, the another end of the leg unit having a cosmetic product, whereinthe leg unit comprises: a first leg unit being hinge-coupled to thefirst lateral surface of the hinge unit; and a second leg unit beinghinge-coupled to the second lateral surface of the hinge unit, andwherein an angle formed between the first leg unit and the second legunit depends on rotation of the first leg unit and the second leg unitwith respect to the hinge unit.
 2. The cosmetic assembly according toclaim 1, wherein the leg unit comprises: a hinge module beinghinge-coupled to the hinge unit; a rod being elongated from an end toanother end, the rod being extended from the hinge module to the anotherend of the rod; and a cosmetic module being coupled to the another endof the rod, and wherein the cosmetic module is the cosmetic product. 3.The cosmetic assembly according to claim 2, wherein the hinge modulecomprises: a hinge frame having an inner space opened partially andaccommodating a part of the hinge unit; and a first hinge couplingportion being formed at the hinge frame and being rotatably coupled tothe hinge unit.
 4. The cosmetic assembly according to claim 3, whereinthe hinge frame comprises: a bottom panel being connected to the rod; afirst lateral surface panel and a second lateral surface panel,extending upwardly from the bottom panel, being spaced apart from eachother and facing each other; and a rear panel extending upwardly fromthe bottom panel and extending from a rear end of the first lateralsurface panel to the second lateral surface panel.
 5. The cosmeticassembly according to claim 3, wherein the first hinge coupling portionis located on an inner surface of the hinge frame and forms a rotationaxis of the leg unit with respect to the hinge unit.
 6. The cosmeticassembly according to claim 3, wherein the hinge module furthercomprises: a first stopper module, being located on an inner surface ofthe hinge frame, being coupled to the hinge unit, and restrainingrotation of the leg unit with respect to the hinge unit.
 7. The cosmeticassembly according to claim 2, wherein the rod comprises: a rod body,wherein an end of the rod body is coupled to the hinge module, the rodbody having a hollow portion formed therein; and a rod opening partbeing formed at another end of the rod body and being connected to thehollow portion of the rod body.
 8. The cosmetic assembly according toclaim 7, wherein the cosmetic module comprises: a first cosmetic module,being inserted into the rod body through the rod opening part and beingcoupled to the rod body; and a second cosmetic module being coupled tothe first cosmetic module to be used for makeup.
 9. The cosmeticassembly according to claim 8, wherein the second cosmetic modulecomprises: an eyebrow pencil being disposed at the first leg unit; and abrush being disposed at the second leg unit.
 10. The cosmetic assemblyaccording to claim 3, wherein the hinge unit comprises: a hinge bodybeing elongated from the first lateral surface to the second lateralsurface; and a second hinge coupling portion being formed at the hingebody and being coupled to the first hinge coupling portion.
 11. Thecosmetic assembly according to claim 10, wherein the hinge bodycomprises: a hinge body first lateral surface, being located on an outersurface of the hinge body; a hinge body second lateral surface, beinglocated on the outer surface of the hinge body, and being located at theopposite side of the hinge body first lateral surface; and a hinge bodyintermediate surface being located on the outer surface of the hingebody and extending from the hinge body first lateral surface to thehinge body second lateral surface, and wherein the second hinge couplingportion is located on at least one of the hinge body first lateralsurface and the hinge body second lateral surface.
 12. The cosmeticassembly according to claim 11, wherein the first hinge coupling portionis formed to be dented on the hinge frame, and Wherein the second hingecoupling portion is formed to protrude from the hinge body.
 13. Thecosmetic assembly according to claim 11, wherein the hinge modulefurther comprises a first stopper module located on an inner surface ofthe hinge frame and being coupled to the hinge unit, wherein the hingeunit further comprises a second stopper module located on the hinge bodyintermediate surface and coupled to the first stopper module, andwherein the first and second stopper modules, restrain rotation of theleg unit with respect to the hinge unit, when the first and secondstopper modules are coupled to each other.
 14. The cosmetic assemblyaccording to claim 13, wherein a plurality of the second stopper modulesdiscontinuously restrain rotation of the leg unit with respect to thehinge unit.
 15. The cosmetic assembly according to claim 13, wherein thefirst stopper module is formed to protrude from the hinge frame, andwherein the second stopper module is formed to be dented on the hingebody intermediate surface.
 16. The cosmetic assembly according to claim2, wherein the hinge module comprises: a hinge frame accommodated in thehinge unit; and a first hinge coupling portion being formed on the hingeframe and rotatably coupled to the hinge unit.
 17. The cosmetic assemblyaccording to claim 16, wherein the hinge module comprises: a first gearcoupling portion being formed on the hinge frame of the first leg unit;and a second gear coupling portion being formed on the hinge frame ofthe second leg unit, and wherein the first gear coupling portion engageswith the second gear coupling portion to be coupled with the second gearcoupling portion.
 18. The cosmetic assembly according to claim 16,wherein the hinge unit comprises: a first lateral surface hinge platefacing the first lateral surface of the leg unit; a second lateralsurface hinge plate facing the second lateral surface of the leg unit;and a connection plate being elongated from the first lateral surfacehinge plate to the second lateral surface hinge plate.
 19. The cosmeticassembly according to claim 18, wherein the first lateral surface hingeplate, the connection plate and the second lateral surface hinge plateare connected in order and form a space for accommodating the leg unittherein.
 20. The cosmetic assembly according to claim 19, wherein thehinge unit comprises: a first lateral surface second hinge couplingportion being formed on the first lateral surface hinge plate andcoupled to the first lateral surface of the leg unit; and a secondlateral surface second hinge coupling portion being formed on the secondlateral surface hinge plate and coupled to the second lateral surface ofthe leg unit.